10341-63-6 | 2-Butanone, oxime, (E)-

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Description

• Catalog Number: AY26111
• Chemical Name: 2-Butanone, oxime, (E)-
• CAS Number: 10341-63-6
• Molecular Formula: C4H9NO
• Molecular Weight: 87.1204
• SMILES: C/C(=N\\\\O)/CC

Upstream Synthesis Route

2-Butanone oxime (E-) is a valuable compound widely utilized in chemical synthesis as a key intermediate. Its application in synthetic chemistry is particularly significant due to its role as a versatile building block in the production of various organic compounds. With its distinct molecular structure and reactive properties, 2-Butanone oxime (E-) serves as a crucial reagent in the creation of diverse chemical products.In chemical synthesis, 2-Butanone oxime (E-) is commonly employed for its ability to undergo reactions that lead to the formation of complex molecules. Its use as a precursor in the synthesis of pharmaceuticals, agrochemicals, and fine chemicals underscores its importance in the field of organic chemistry. By participating in a range of chemical transformations, 2-Butanone oxime (E-) enables the construction of intricate molecular frameworks with high efficiency and precision.Moreover, the unique stereochemistry of the E-isomer of 2-Butanone oxime imparts specific properties that are essential for the desired outcomes in synthetic processes. This isomer plays a crucial role in controlling the stereochemical outcomes of reactions, thereby influencing the overall structure and properties of the final products. As a result, the precise utilization of the (E-) configuration of 2-Butanone oxime is instrumental in achieving the desired chemical transformations in a controlled manner.Overall, the application of 2-Butanone oxime (E-) in chemical synthesis offers chemists a powerful tool for designing and producing a wide array of organic compounds with tailored functionalities and properties. Its versatility, reactivity, and stereochemical attributes make it a valuable component in the toolkit of synthetic chemists seeking to create novel molecules and advance the frontiers of chemical research.